US2456494A

US2456494A - Circuit arrangement for the modulation of electrical oscillations

Info

Publication number: US2456494A
Application number: US727780A
Authority: US
Inventors: Ensink Johannes
Original assignee: Hartford National Bank and Trust Co
Current assignee: Hartford National Bank and Trust Co
Priority date: 1944-03-29
Filing date: 1947-02-11
Publication date: 1948-12-14
Anticipated expiration: 1965-12-14
Also published as: GB622711A; BE463257A; FR925231A; CH248981A

Description

J. ENSINK CIRCUIT ARRANGEMENT FOR THE MODULATION OF ELECTRICAL OSCILLATIONS Filed Feb- 11, 1947 Dec. 14, 1948.

M .,TK M m w: m mm I Patented Dec. 14, 1948 UNITED STATES PATENT OFFICE CIRCUIT ARRANGEMENT FOR THE MODU- LATION OF ELECTRICAL OSCILLATIONS Johannes Ensink, Eindhoven, Netherlands, as-

slgnor to Hartford National Bank and Trust Company, Hartford, Court, as trustee Application February 11, 1947, Serial No. 727,780 In the Netherlands March 29, 1944 Section 1, Public Law 690, August s, 1946 Patent expires March 29, 1984 8 Claims. (01.332-43) pull connnections oi rectiflers A1, A: and B1, B2

respectively which are connected through transformers T1 and T2 respectively ,to the input circult, to which the modulating oscillations, represented by a source of potential producing a voltage eq are supplied, and to the output circuit, represented by a load resistance Rs, from which the modulated oscillations are obtained. The electric centres of the secondary windings oi the input transformer T1 and of the primary windings of the output transformer T2 are respectively connected to one another and, moreover, to a carrier wave generator, represented by a source of potential e having an internal resistance Rp.

The voltage eq'may be a low-frenuency volte across the rectiflers B. In the case of the rectiflers having an ideal characteristic, that is to say an infinitely high resistance in the blocking direction and an infinitely low resistance in the direction in which the current passes, the voltage e A and consequently also the blocking voltage across the rectifiers B would become zero. As the device can only work as a modulator as long as the modulating voltage e is not, sufllciently high to reopen the blocked rectifiers B this means that the modulator, equipped with ideal rectiflers, could not operate as a modulator.

- i 2 The rectifiers utilized The resistance in the direction in which the'current passes has an infinitely low value, so thata blocking voltage is steadily set up at the rectiilers, which have to be blocked during a given phase of the carrier-wave voltage e so that the modulator can operate. Nevertheless this blocking voltage 'e remains low. It is determined by the ratio between the resistance r of the rectifiers in the direction in which the current passes and themostly much higher internal resistance R I of the carrier wave generator If the amplitude of the modulating oscillations e becomes higher than the blocking voltage e the rectifiers which should actually be blocked, also become conductive, as a result of which the two push-pull connections now cause a current to flow in the common load resistance Rs. Since these currents have opposite directions a decrease of the resulting modulated output current or output voltage respectively occurs or, in other words, the modulator has a limiting effect. This limiting effect is sometimes desired, for example in carrier-rwave telephony systems, in which modulators of the aforesaid kind are used and in which it is desirable to prevent the modulated signal from exceeding a definite maximumv i duced by the limitation.

Now the object of the invention is to render the point, at which the limiting effect of the double push-pull modulator begins, adjustable at will.

According to the invention this object is achieved by inserting in at least one of the leads connecting the carrier-wave generator to an electric centre of each of the push-pull connections an impedance for 'at least the frequency of the oscillations to be modulated.

Fig. 2 of the drawing represents a circuit-arrangement according to the invention. It corresponds to the circuit-arrangement shown in in practice are not ideal.

Fig. 1, but a lead connecting the carrier-wave generator-to the push-pull connection comprising the rectifiers A1 and A: includes a resistance R and the lead connecting the carrier wave generator to the push-pull circuit-arrangement comprising the rectifiers B1 and B2 includes a resistance R The blocking voltage a which is now set up at the blocked rectifiers, assuming these to be the rectifiers B1 and B2, is approximately and can thus be adjusted by the choice of the resistance R The'same expression holds in regard to the blocking voltage set up at the rectifiers A1 and A2 during the time when the rectifiers B1 and B2 are conductive. Since the value of the blocking voltage e determines the point at which the limiting effect of the modulator begins, it is evident that by adjustment of the resistance R this point is adjustable. If the rectifiers have the same characteristics the resist- I ances R and R can be chosen equal. In the opposite case they will have to be somewhat different, in order to ensure that the blocking voltages of the rectifiers of the two push-pull halves are equal.

Fig. 3 of the drawing shows a simplified modulator of the double push-pull type, in which use is made of an output transformer T: having a single primary winding. In this case the resistances R A and R are connected in the same manner as in the modulator shown in Fig. 2.

vmodulator to modulate said electric oscillation,

and a circuit element having appreciable impedance at the frequency of said oscillation interposed between said means to apply said electric oscillation and each of said pairs of rectifiers.

2. A circuit arrangement for modulating electric oscillations, comprising a double push-pull balanced modulator having a pair of electrical paths comprising an input winding, a pair 0! rectifiers and an output winding, each of said windings having a center tapping thereon, means to apply the electric oscillation to be modulated between the center tappings of said input and said output windings, means to apply a modulating oscillation voltage to the input windings of said modulator in phase opposition to each 01' said electric paths of said modulator to modulate said electric oscillation, circuit elements having appreciable impedance at the frequency of said electric oscillation interposed between-said means to apply said electric oscillation and each of the center tapplngs of said windings, and means to couple a load element to the output winding of said electric paths.

3. A circuit arrangement for modulating electric oscillations, comprising a double push-pull balanced modulator having a pair of electrical paths each of which comprises an input winding, a pair of rectifiers and an output winding, each of said windings having a center tapping thereon, one of said paths being connected in phase opposition with respect to the other, means to apply the electric oscillation to be modulated in phase between the center tappings of the input and said output windings of each oi? said paths, means to apply a modulating oscillation voltage to the in-, put windings of said modulator in phase opposition to each of said electric paths of said modulator tomodulate said electric oscillation, circuit elementsohaving appreciable impedance at the frequency of said electric oscillation interposed between said means to apply said electric oscillation and each of the center tappings of the input windings of each of said paths, and means to couple a load element in phase oppositionto said output windings.

JOHANNES ENSINK.

aarananons CITED The following references are of record in the file of this patent:

FOREIGN PATENTS Great Britain Apr. 13, 1942